scholarly journals The Influence of Physical Treatments on Phytochemical Changes in Fresh Produce after Storage and Marketing

Agronomy ◽  
2021 ◽  
Vol 11 (4) ◽  
pp. 788
Author(s):  
Elazar Fallik ◽  
Zoran Ilić
Keyword(s):  
Fruits And Vegetables ◽  
Growth Conditions ◽  
Nutritional Content ◽  
Nutrition And Health ◽  
Phytochemical Content ◽  
Post Harvest ◽  
Crop Genetics ◽  
Anti Cancer ◽  
Nutritional Qualities ◽  
Physical Treatments

More food with high nutritional content will be needed to feed the growing global human population, which is expected to reach 10 billion by 2050. Fruits and vegetables contain most of the minerals, micronutrients, and phytonutrients essential for human nutrition and health. The quantity of these phytochemicals depends on crop genetics, weather and environmental factors, growth conditions, and pre-harvest and post-harvest treatments. These phytochemicals are known to have anti-cancer properties and to regulate immunity, in addition to hypolipidemic, antioxidant, anti-aging, hypotensive, hypoglycemic, and other pharmacological properties. Physical treatments have been reported to be effective for managing several post-harvest diseases and physiological disorders. These treatments may affect the external, internal, and nutritional qualities of fruits and vegetables. Therefore, the aim of this review is to summarize the information recently reported regarding the use of physical treatments applied either directly or in combination with other means to maximize and maintain the phytochemical content of fresh and fresh-cut or processed fruits and vegetables.

Understanding the Role of Chlorine and Ozone to Control Postharvest Diseases in Fruit and Vegetables: A Review

2020 ◽  
Vol 16 (4) ◽  
pp. 455-461
Author(s):  
Gabriela M. Baia ◽  
Otniel Freitas-Silva ◽  
Murillo F. Junior
Keyword(s):  
Chlorine Dioxide ◽  
Broad Spectrum ◽  
Fruits And Vegetables ◽  
Low Cost ◽  
Residual Effects ◽  
Pathogenic Microorganisms ◽  
Postharvest Diseases ◽  
Post Harvest ◽  
By Products

Fruits and vegetables are foods that come into contact with various types of microorganisms from planting to their consumption. A lack or poor sanitation of these products after harvest can cause high losses due to deterioration and/ or pathogenic microorganisms. There are practically no post-harvest fungicides or bactericides with a broad spectrum of action that have no toxic residual effects and are safe. However, to minimize such problems, the use of sanitizers is an efficient device against these microorganisms. Chlorine is the most prevalent sanitizing agent because of its broad spectrum, low cost and well-established practices. However, the inevitable formation of disinfection by-products, such as trihalomethanes (THMs) and haloacetic acids (HAAs), is considered one of the main threats to food safety. Alternative sanitizers, such as chlorine dioxide (ClO2) and ozone, are becoming popular as a substitute for traditional post-harvest treatments. Thus, this review addresses the use of chlorine, chlorine dioxide and ozone emphasizing aspects, such as usage, safe application, spectrum of action and legislation. In order to ensure the quality and safety of final products, the adoption of well-prepared sanitation and sanitation programs for post-harvest fruits and vegetables is essential.

scholarly journals Tree nut phytochemicals: composition, antioxidant capacity, bioactivity, impact factors. A systematic review of almonds, Brazils, cashews, hazelnuts, macadamias, pecans, pine nuts, pistachios and walnuts

2011 ◽  
Vol 24 (2) ◽  
pp. 244-275 ◽  
Author(s):  
Bradley W. Bolling ◽  
C.-Y. Oliver Chen ◽  
Diane L. McKay ◽  
Jeffrey B. Blumberg
Keyword(s):  
Phenolic Acids ◽  
Storage Conditions ◽  
Impact Factors ◽  
Analytical Methodology ◽  
Phytochemical Content ◽  
Tree Nuts ◽  
Post Harvest ◽  
Tree Nut ◽  
Roasting Process ◽  
Intervention Trials

Tree nuts contain an array of phytochemicals including carotenoids, phenolic acids, phytosterols and polyphenolic compounds such as flavonoids, proanthocyanidins (PAC) and stilbenes, all of which are included in nutrient databases, as well as phytates, sphingolipids, alkylphenols and lignans, which are not. The phytochemical content of tree nuts can vary considerably by nut type, genotype, pre- and post-harvest conditions, as well as storage conditions. Genotype affects phenolic acids, flavonoids, stilbenes and phytosterols, but data are lacking for many other phytochemical classes. During the roasting process, tree nut isoflavones, flavanols and flavonols were found to be more resistant to heat than the anthocyanins, PAC and trans-resveratrol. The choice of solvents used for extracting polyphenols and phytosterols significantly affects their quantification, and studies validating these methods for tree nut phytochemicals are lacking. The phytochemicals found in tree nuts have been associated with antioxidant, anti-inflammatory, anti-proliferative, antiviral, chemopreventive and hypocholesterolaemic actions, all of which are known to affect the initiation and progression of several pathogenic processes. While tree nut phytochemicals are bioaccessible and bioavailable in humans, the number of intervention trials conducted to date is limited. The objectives of the present review are to summarise tree nut: (1) phytochemicals; (2) phytochemical content included in nutrient databases and current publications; (3) phytochemicals affected by pre- and post-harvest conditions and analytical methodology; and (4) bioactivity and health benefits in humans.

scholarly journals Ethylene induces soil microbes to delay fruit ripening

2014 ◽  
Author(s):  
Guenevere Perry ◽  
Diane Williams
Keyword(s):  
Fruit Ripening ◽  
Fruits And Vegetables ◽  
Soil Microbes ◽  
Low Cost ◽  
Ripening Process ◽  
Post Harvest ◽  
Climacteric Fruit ◽  
Low Concentrations ◽  
Transportation Container ◽  
Post Harvest Loss

The consumer demand for fresh fruits and vegetables increases every year, and farmers need a low cost novel method to reduce post-harvest loss and preserve the quality of fresh fruits and vegetables. This study identifies a method to induce soil bacteria to biosynthesize a nitrile compound that potentially enters the plants tissue and negatively affects climacteric ripening and delays the ripening process at 20-30˚C. This study used soil rich with soil microbes, to delay the ripening of climacteric fruit. The soil was treated with nitrogen, a heavy metal, and ethylene gas. Ethylene induced the soil to delay the ripening of organic bananas and peaches. A prototype transportation container maintained fruit fresh for up to 72 h at 20-30˚C. The fruit retained color, firmness, texture, no bruising and minimal spotting. The soil also prevented fungal infection in all samples. GC-MS analysis suggests ethylene induced the soil microbes to release an acetonitrile compound into the gaseous environment. The nitrile is released in low concentrations, but mature plants (fruits) contain very low levels of indole-3-acetonitrile (IAN) or indole-3-acetic acid (IAA). The nitrile may obstruct or modify the mature plants (fruit) late stages development process, thus delay the climacteric ripening process and retarding the physiological and phenotypic effects of fruit ripening. We believe this study may have strong applications for post-harvest biotechnology.

scholarly journals Active and Intelligent Packaging with Phase Change Materials to Promote the Shelf Life Extension of Food Products

2020 ◽  
Author(s):  
Sasi Madhan ◽  
Christophe Espírito Santo ◽  
Luís P. Andrade . ◽  
Pedro D. Silva . ◽  
Pedro D. Gaspar .
Keyword(s):  
Phase Change ◽  
Shelf Life ◽  
Fruits And Vegetables ◽  
Phase Change Materials ◽  
Active Packaging ◽  
Life Extension ◽  
Box Dimension ◽  
Intelligent Packaging ◽  
Post Harvest ◽  
Shelf Life Extension

Active packaging aims to extend the shelf life of fruits and vegetables using active agents such as Oxygen, Carbon-di-oxide, ethylene scavengers and moisture absorber. Intelligent packaging provides information about the fruits quality inside the package to the customer and this packaging technology detects the internal changes of fruits and vegetables using sensors and indicators. Further to improve the post-harvest storage PCM such as Rubitherm can be used depending on the package box dimension to remove the field heat from the products and maintain its temperature with low variation during transport and display. Gel packs having less weight with PET and PS can also be an alternate method in the packaging. The application of these technologies may lead to a revolution in post-harvest storage, transportation, and further retail sale. This paper reviews the theoretical principles of food packaging and recent developments in packaging technologies using PCMs. Keywords: Active packaging, Intelligent packaging, Phase change materials, Shelf life extension, Fruits

scholarly journals The Brown Marmorated Stink Bug (Halyomorpha halys Stål.) Influences Pungent and Non-Pungent Capsicum cultivars’ Pre- and Post-Harvest Quality

Agronomy ◽  
2021 ◽  
Vol 11 (11) ◽  
pp. 2252
Author(s):  
Tilen Zamljen ◽  
Robert Veberic ◽  
Metka Hudina ◽  
Ana Slatnar
Keyword(s):  
Fruits And Vegetables ◽  
Metabolic Response ◽  
Fold Increase ◽  
Invasive Pest ◽  
Halyomorpha Halys ◽  
Stink Bug ◽  
Severe Damage ◽  
Post Harvest ◽  
Entire Plant

Halyomorpha halys is an important invasive pest that causes severe damage to fruits and vegetables. Peppers are susceptible to infestation by H. halys, resulting in yield losses. Plants respond to the insect infestation with a metabolic response. With this study, we attempted to determine the intensity of the metabolic response of infested peppers, how pungent and non-pungent peppers react to the infestation, and how the H. halys affects the post-harvest quality of both cultivars. The shelf life of the infested peppers did not change compared to the control treatments. We observed a drastic decrease in metabolite levels after storage in all three treatments in both cultivars, especially capsaicinoids, with an approximate decrease of 30% in the pericarp and 95% in the placenta of the pungent ‘Eris F1’. In some cases, the accumulation of metabolites was not limited to the fruit exposed to the H. halys infestation, but to the entire plant. We observed a 15-fold increase in capsaicinoid content in the infested fruits of cultivar ‘Eris F1’ and a 4-fold increase in the pericarp of cultivar ‘Lombardo tago’, which could lead to a possible further study on the defensive function of capsaicinoids and their use against H. halys.

Biological control of post-harvest diseases of fruits and vegetables: alternatives to synthetic fungicides

1991 ◽  
Vol 10 (3) ◽  
pp. 172-177 ◽  
Author(s):  
Charles L. Wilson ◽  
Michael E. Wisniewski ◽  
Charles L. Biles ◽  
Randy McLaughlin ◽  
Edo Chalutz ◽  
...  
Keyword(s):  
Biological Control ◽  
Fruits And Vegetables ◽  
Post Harvest

Controlled Release of Bi-Layered Malvidin Tablets Using 3D Printing Techniques

2021 ◽  
pp. 70-78
Author(s):  
Tejinder Kaur ◽  
Suruchi Singh
Keyword(s):  
Controlled Release ◽  
3D Printing ◽  
Fruits And Vegetables ◽  
Physical And Mechanical Properties ◽  
3D Printer ◽  
Anti Cancer ◽  
Printing Cost ◽  
3D Printed ◽  
Cost Efficient ◽  
3D Printing Technique

Malvidin belongs to the class of anthocyanidin, a pigment compound present in fruits and vegetables like the colored berries, flowers, and vegetables which have pigments on it and it is available commercially as malvidin chloride. Malvidin is known to possess many medicinal characteristics like anti-microbial, anti-diabetic, anti-inflammatory, anti-obesity, and anti-cancer. In this research paper, a 3D printing technique is used which evolves a 3D printer based on desktop that extrudes tablets comprising the active drug which here is malvidin our main ingredient and the other excipients which are used as binders and disintegrants. Methods which are adapted here for the formulation of 3D printed tablet make the tablets appropriate for immediate and sustained release with its definite physical and mechanical properties like hardness, friability, and weight. Tablets that are extruded by the 3D printer are controlled release bi-layer tablets. Due to involvement of 3D printer, printing cost for the bi-layered tablets found very low that makes our method as cost efficient.

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